Ling Xu scite author profile

Arabidopsis thaliana seedlings undergo photomorphogenesis in the light and etiolation in the dark. Long Hypocotyl in FarRed 1 (HFR1), a basic helix-loop-helix transcription factor, is required for both phytochrome A-mediated far-red and cryptochrome 1-mediated blue light signaling. Here, we report that HFR1 is a short-lived protein in darkness and is degraded through a 26S proteasome-dependent pathway. Light, irrespective of its quality, enhances HFR1 protein accumulation via promoting its stabilization. We demonstrate that HFR1 physically interacts with Constitutive Photomorphogenesis 1 (COP1) and that COP1 exhibits ubiquitin ligase activity toward HFR1 in vitro. In addition, we show that COP1 is required for degradation of HFR1 in vivo. Furthermore, plants overexpressing a C-terminal 161-amino acid fragment of HFR1 (CT161) display enhanced photomorphogenesis, suggesting an autonomous function of CT161 in promoting light signaling. This truncated HFR1 gene product is more stable than the full-length HFR1 protein in darkness, indicating that the COP1-interacting N-terminal portion of HFR1 is essential for COP1-mediated destabilization of HFR1. These results suggest that light enhances HFR1 protein accumulation by abrogating COP1-mediated degradation of HFR1, which is necessary and sufficient for promoting light signaling. Additionally, our results substantiate the E3 ligase activity of COP1 and its critical role in desensitizing light signaling.

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Genome-Wide Sequence Characterization and Expression Analysis of Major Intrinsic Proteins in Soybean (Glycine max L.)

Zhang

et al. 2013

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Water is essential for all living organisms. Aquaporin proteins are the major facilitator of water transport activity through cell membranes of plants including soybean. These proteins are diverse in plants and belong to a large major intrinsic (MIP) protein family. In higher plants, MIPs are classified into five subfamilies including plasma membrane intrinsic proteins (PIP), tonoplast intrinsic proteins (TIP), NOD26-like intrinsic proteins (NIP), small basic intrinsic proteins (SIP), and the recently discovered X intrinsic proteins (XIP). This paper reports genome wide assembly of soybean MIPs, their functional prediction and expression analysis. Using a bioinformatic homology search, 66 GmMIPs were identified in the soybean genome. Phylogenetic analysis of amino acid sequences of GmMIPs divided the large and highly similar multi-gene family into 5 subfamilies: GmPIPs, GmTIPs, GmNIPs, GmSIPs and GmXIPs. GmPIPs consisted of 22 genes and GmTIPs 23, which showed high sequence similarity within subfamilies. GmNIPs contained 13 and GmSIPs 6 members which were diverse. In addition, we also identified a two member GmXIP, a distinct 5th subfamily. GmMIPs were further classified into twelve subgroups based on substrate selectivity filter analysis. Expression analyses were performed for a selected set of GmMIPs using semi-quantitative reverse transcription (semi-RT-qPCR) and qPCR. Our results suggested that many GmMIPs have high sequence similarity but diverse roles as evidenced by analysis of sequences and their expression. It can be speculated that GmMIPs contains true aquaporins, glyceroporins, aquaglyceroporins and mixed transport facilitators.

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Repression of light signaling by Arabidopsis SPA1 involves post‐translational regulation of HFR1 protein accumulation

Yang¹,

Lin²,

Hoecker³

et al. 2005

The Plant Journal

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SummaryArabidopsis uses two major classes of photoreceptors to mediate seedling de-etiolation. The cryptochromes (cry1 and cry2) absorb blue/ultraviolet-A light, whereas the phytochromes (phyA-phyE) predominantly regulate responses to red/far-red light. Arabidopsis COP1 represses light signaling by acting as an E3 ubiquitin ligase in the nucleus, and is responsible for targeted degradation of a number of photomorphogenesispromoting factors, including HY5, LAF1, phyA, and HFR1. Distinct light signaling pathways initiated by multiple photoreceptors (including both phytochromes and cryptochromes) eventually converge on COP1, causing its inactivation and nuclear depletion. Arabidopsis SPA1, which encodes a protein structurally related to COP1, also represses light signaling under various light conditions. In this study, we present genetic evidence supporting that HFR1, which encodes a photomorphogenesis-promoting bHLH transcription factor, acts downstream of SPA1 and is required for different subsets of branch pathways of light signaling controlled by SPA1 under different light conditions. We show that SPA1 physically interacts with HFR1 in a yeast twohybrid assay and an in vitro co-immunoprecipitation assay. We demonstrate that higher levels of HFR1 protein accumulate in the spa1 mutant background under various light conditions, including far-red, red, blue, and white light, whereas a marginal increase in HFR1 transcript level is only seen in dark-and far-red light-grown spa1-100 mutants. Together, our data suggest that repression of light signaling by Arabidopsis SPA1 likely involves post-translational regulation of HFR1 protein accumulation.

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5-Aminolevulinic acid enhances photosynthetic gas exchange, chlorophyll fluorescence and antioxidant system in oilseed rape under drought stress

Liú

Naeem

et al. 2013

Acta Physiol Plant

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NO PRIMEXINE AND PLASMA MEMBRANE UNDULATION Is Essential for Primexine Deposition and Plasma Membrane Undulation during Microsporogenesis in Arabidopsis

et al. 2011

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Ling Xu

Light Regulates COP1-Mediated Degradation of HFR1, a Transcription Factor Essential for Light Signaling in Arabidopsis

Genome-Wide Sequence Characterization and Expression Analysis of Major Intrinsic Proteins in Soybean (Glycine max L.)

Repression of light signaling by Arabidopsis SPA1 involves post‐translational regulation of HFR1 protein accumulation

5-Aminolevulinic acid enhances photosynthetic gas exchange, chlorophyll fluorescence and antioxidant system in oilseed rape under drought stress

NO PRIMEXINE AND PLASMA MEMBRANE UNDULATION Is Essential for Primexine Deposition and Plasma Membrane Undulation during Microsporogenesis in Arabidopsis

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